public bool ConvertValues(bool isIS, bool isElevation) { bool isChanged = false; if (IsInternationalSystemOfUnits_IS != isIS) { IsInternationalSystemOfUnits_IS = isIS; HotWaterTemperatureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); ColdWaterTemperatureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); LiquidToGasRatioDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); ElevationDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); WetBulbTemperatureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); BarometricPressureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); isChanged = true; } if (IsElevation != isElevation) { IsElevation = isElevation; double value = 0.0; string message; if (IsElevation) { if (IsInternationalSystemOfUnits_IS) { value = UnitConverter.ConvertKilopascalToElevationInMeters(BarometricPressureDataValue.Current); } else { value = UnitConverter.ConvertBarometricPressureToElevationInFeet(UnitConverter.CalculatePressureCelcius(BarometricPressureDataValue.Current)); } ElevationDataValue.UpdateCurrentValue(value, out message); } else { if (IsInternationalSystemOfUnits_IS) { value = UnitConverter.ConvertElevationInMetersToKilopascal(ElevationDataValue.Current); } else { value = UnitConverter.CalculatePressureFahrenheit(UnitConverter.ConvertElevationInFeetToBarometricPressure(ElevationDataValue.Current)); } BarometricPressureDataValue.UpdateCurrentValue(value, out message); } isChanged = true; } return(isChanged); }
public bool ConvertValues(bool isInternationalSystemOfUnits_IS_) { if (IsInternationalSystemOfUnits_IS_ != isInternationalSystemOfUnits_IS_) { IsInternationalSystemOfUnits_IS_ = isInternationalSystemOfUnits_IS_; EnthalpyDataValue.ConvertValue(IsInternationalSystemOfUnits_IS_); ElevationDataValue.ConvertValue(IsInternationalSystemOfUnits_IS_); BarometricPressureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS_); WetBulbTemperatureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS_); DryBulbTemperatureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS_); return(true); } return(false); }
public bool ConvertValue(bool isInternationalSystemOfUnits_IS_, bool doConversion = false) { bool isChanged = false; if (IsInternationalSystemOfUnits_IS != isInternationalSystemOfUnits_IS_) { IsInternationalSystemOfUnits_IS = isInternationalSystemOfUnits_IS_; WaterAirFlowRateDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); HotWaterTemperatureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); ColdWaterTemperatureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); WetBulbTemperatureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); DryBulbTemperatureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); FanDriverPowerDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); BarometricPressureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); LiquidToGasRatioRateDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); isChanged = true; } return(isChanged); }
public bool ConvertValues(bool isIS) { bool isChanged = false; if (IsInternationalSystemOfUnits_IS != isIS) { IsInternationalSystemOfUnits_IS = isIS; WaterFlowRateDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); HotWaterTemperatureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); ColdWaterTemperatureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); WetBulbTemperatureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); DryBulbTemperatureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); FanDriverPowerDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); BarometricPressureDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); LiquidToGasRatioDataValue.ConvertValue(IsInternationalSystemOfUnits_IS, true); //MechanicalDraftPerformanceCurveDesignInputData.ConvertValue(IsInternationalSystemOfUnits_IS, true); isChanged = true; } return(isChanged); }